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A multilevel approach to geography of innovation

A multilevel approach to geography of innovation. Martin Srholec TIK Centre University of Oslo http://folk.uio.no/martinsr/ DIME International Workshop on

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A multilevel approach to geography of innovation

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  1. A multilevel approach to geography of innovation Martin Srholec TIK Centre University of Oslo http://folk.uio.no/martinsr/ DIME International Workshop on "Reconsidering the Regional Knowledge Economy: Theoretical, Empirical and Policy Insights from Diverse Research Approaches", KITE, Newcastle University, 4-5 September 2008, Newcastle, United Kingdom

  2. A multilevel problem • Multilevel modeling concerns hypothesis/problem/data with hierarchical structure • A hierarchy refers to units clustered (grouped/related/similar, etc.) at different levels • Acknowledged in many fields of social science or biology for a long time • School performance is not only given by the amount of study time of a child, but also by higher-level factors such as characteristics of the class, school or national educational system • Similarly the innovation process in firms is influenced by factors operating at different levels

  3. Innovator and environment(s) • Schumpeter focused on constraining factors in the environment: the forces of habit, resistance to innovation by the environment • The idea about survival of firms propelled by innovation, but determined by the environment in the evolutionary economics • National, regional and sectoral innovation systems: organizations, relations and institutions that enable innovation in firms • A need to reach beyond the dichotomy between methodological individualism vs. collectivism in empirical research on innovation • A need for multilevel analysis of interactions between various levels of the analysis in the innovation process

  4. Multilevel modeling • A multilevel model is a statistical model that relates a dependent variable to explanatory variables at more than one level • Sociology, educational research, health science, demography, epidemiology or biology • Not used in research on innovation (and rarely in economics)

  5. Suppose a multilevel model has 2-level structure with firms at level-1 located in regions at level-2. A standard linear 2-level model with one explanatory variable at each level is the following: where yij is the dependent variable, xij is the level-1 predictor, wj is the level-2 predictor, eij, u0j and u1j are random effects (normally distributed residual terms for each equation), i is the firm (i = 1…n) and j is the region (j = 1…m).

  6. Why multilevel modeling? • Single-level models assume that observations (and hence residuals) are independent from each other • Single-level models may suffer from the fallacy of the wrong level • Analyses that use exclusively micro data to account for the contextual effects often suffer from endogeneity • A proper recognition of data hierarchies allows us to examine new lines of questions • And at last but not least the concept of innovation systems implicitly predicts a nested structure of micro data

  7. Why not just dummies? • Using dummies might be a useful quick-fix solution, if we are interested exclusively in the level-1 relationships, but it is of a little help if we are interested in cross-level relations • A dummy is a “catch-all” variable stripped of the context for which we can only speculate what it really represents • If there are many higher-level units, “dummy” models will have many more parameters, decreasing the degrees of freedom • If the higher-level dummies significantly improve predictive power of the model, which indeed is often the case in the literature; a multilevel model should be given priority

  8. Dataset • Micro data from CIS3 (1999-2001) in the Czech Republic • A representative sample of 5,829 enterprises with more than 10 employees was surveyed of which about 65% responded • After omitting firms with incomplete records a dataset of 3,801 firms • Firm-level variables: INNOV, SIZE, AGE and FOREIGN • Factor analysis on 11 regional variables (77 regions at NUTS4)

  9. NUTS4 regions(unemployment rate)

  10. Results of the factor analysis(factor loadings after rotation)

  11. A logit multilevel model Since INNOV is binary, we need to specify a non-linear multilevel model. For this purpose, we distinguish between the sampling model (3.1), a link function (3.2) and a structural part of the multilevel model (3.3). Only the level-1 model differs from the linear case and can be written down as follows: where ij is the log of the odds of success (to introduce an innovation, for instance). Although ij is constrained to be in the interval (0,1), the logit transformation allows ij to take any value and therefore can be substituted to the structural model. Note that the predicted log-odds can be converted to an odds by exp(ij) and to the predicted probability ij by expij/(1+expij).

  12. Basic model Although there are no level-2 predictors, we allow the level-1 intercept and slopes to vary across regions by including the random effects: where there are four fixed effects (00 … 30) and four random effects (u0j … u3j)

  13. Intercept-as-outcome model incorporates the regional variables for RIS and STR into the model as predictors of the level-1 intercept: where we assume that the level-2 predictors explain the different average propensity to innovate across regions, but let the level-1 effects of SIZE, AGE and FOREIGN remain “unconditional” at the regional level.

  14. A typical domestic-owned firm (all of the level-1 effects of zero) located in the best region, which is the Prague agglomeration with the best RIS and modest STR score, is predicted to have 37.3% probability to innovate, whereas the same firm located in the Karviná region with the worst combination of conditions has only 24.4% probability to innovate.

  15. Slopes-as-outcomes model in which we allow the regional variables to influence also slopes of the level-1 predictors: where the new fixed parameters (11 … 31 and 12 … 32) indicate cross-level interactions between the regional and firm-level predictors.

  16. Conclusions • Quality of the regional innovation system directly determines firm’s likelihood to innovate and mediates the effect of some firm-level factors • Also structural problems in the region influence innovation in firms • Just a beginning to show that this approach is viable (another papers in progress) • Main limits given by high demands on the quality (and quantity) of data and computational power of the computer (and the researcher…) • Important implications for policy-making

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